南亚热带10种造林树种的水力结构和水力安全

南亚热带地区人工纯林面积大, 但是结构简单, 对气候变化响应敏感。在区域气候干旱化的背景下, 造林树种的生理生态策略及其对季节性干旱的响应亟待研究。该研究选择南亚热带地区10种造林树种(包括6种乡土种和4种外来种), 测定这些树种的平均生长速率、水力学性状以及经济学性状, 分析性状与生长速率之间的相关关系, 并比较水力安全边际和气孔安全边际的种间差异。结果发现: (1)造林树种的生长速率与木质部导水率显著正相关, 但与木材密度、比叶面积以及水力安全性指标无显著相关性。(2)造林树种的水分传导效率性和安全性之间没有权衡关系, 外来树种Acacia crassicarpa和Eucalyptus grandis × urophylla同时具有较高的木质部导水率和较强的抗栓塞能力。(3)造林树种的水力安全边际和气孔安全边际的种间差异显著, 大叶相思(Acacia auriculiformis)、红锥(Castanopsis hystrix)、壳菜果(Mytilaria laosensis)和阴香(Cinnamomum burmannii)在干季发生水力失败的风险较高。建议南亚热带人工林的生态监测指标体系中应包括树木水力学性状, 进而为人工林的可持续经营管理提供重要参考。     

樟子松固沙林林水关系研究进展及对营林实践的指导

中国有着世界上最大面积的人工林, 如何维持人工林的可持续性已成为气候变化背景下需要面对的重大挑战。樟子松(Pinus sylvestris var. mongolica)以其抗旱、抗寒、耐贫瘠等优良特性成为中国北方生态治理中最主要的常绿针叶树种之一, 近70年来发挥了巨大的防风固沙与生态固碳功能。然而, 随着林分的生长与气候变化, 樟子松人工固沙林正经历着越来越严峻的环境胁迫, 部分地区出现了林分“早衰”或死亡的现象, 引起了人们对樟子松固沙林适应与应对气候变化能力的担忧。该文在回溯樟子松基本生物学特征与引种推广历史, 系统总结近年来樟子松林林水关系研究新成果的基础上, 全面分析了樟子松固沙林林水关系存在的主要矛盾, 并提出了基于林水关系相协调的林分经营措施的调整: 由倡导防护功能为主的单一目标向包含林分稳定性、生态固碳功能、可持续发展等多目标平衡方向调整; 由以沙地森林景观培育为主向以良好土壤生境培育为主的方向调整; 由倡导天然更新为主向以人工造林与天然更新相结合的世代更新方向调整。在立足于北方沙地脆弱生境与气候变化客观现实的基础背景下, 应坚持樟子松在固沙林生态系统演化过程中的先锋种与建群种地位, 基于“以水定绿”原则, 采取“隔行带伐+再造林”等方式开展林分密度动态调控, 促进林分向异龄林结构演化, 促进樟子松固沙林生态服务的优质化和生态固碳功能的最大化。     

The Use of Digitally-modified Videos to Study the Function of Ornamentation and Courtship in the Guppy, Poecilia reticulata

The use of video playback, digitally-modified video images, and animations is a potentially powerful tool for exploring the interactions between morphological and behavioral components of complex sexually selected traits. The utility of digitally-modified video was evaluated by the responses of females to male images in which either the behavioral components of display or the colors of ornamentation were manipulated. Females were presented with paired male images that varied only in the size of the orange or blue spot on the body (19.1% vs. 8.6%), courtship duration (7sec vs. 2.3sec), or courtship rate (3 displays min^-1 vs. 1 display min^-1). Females preferred male images with more vigorous courtship displays (both duration and rate) but did not discriminate between images differing in spot size. The results of the present study suggest that females discriminate more strongly between variation in male behavior than in their morphological attributes. The results of morphological manipulations should be interpreted with caution, however, because several factors could have contributed to the lack of female responses to color spot variation. Among them are lowered resolution of the computer image, which fails to capture the precision and complexity of the color pattern. Despite these potential difficulties, digitally-modified video promises to be a powerful method to study complex visual communication systems, where the function of and interaction between the various morphological and behavioral components is as yet poorly understood.     

Soil Organic Carbon and Water Retention after Conversion of Grasslands to Pine Plantations in the Ecuadorian Andes

Tree plantations in the high elevations of the tropics constitute a growing land use, but their effect on ecosystem processes and services is not well known. We examined changes in soil organic carbon (C) and water retention in a chronosequence of Pinus radiata stands planted in páramo grasslands in Cotopaxi province, Ecuador. Water retention at 10, 33, and 1,500 kPa declined with stand age, with soils in the oldest pine stands retaining 39%, 55%, and 63% less water than grassland soils at the three pressures tested. Soil organic C in the 0–10-cm depth also declined with stand age, from 5.0 kg m^–2 in grasslands to 3.5 kg m^–2 in 20–25-year-old pine stands (P < 0.001); at greater depth in the A horizon, C contents decreased from 2.8 to 1.2 kg m^–2 (P = 0.047). There were no significant differences among age classes in the AC and C horizons (P = 0.15 and P = 0.34, respectively), where little or no weathering of the primary material has occurred. Inputs of C may be affected by the significantly higher carbon–nitrogen (C:N) ratio of the litter under older pine stands (P = 0.005), whereas outputs are influenced by substrate quality as well as soil environmental factors. Soil ratios at the 0–10 cm depth were significantly higher in grasslands and young pine stands (P < 0.001), whereas carbon–phosphorous (C:P) ratios at 0–10-cm depth followed a similar but not significant trend. However, there was no significant difference in short-term decomposition rates (P = 0.60) when the soils were incubated under uniform temperature and moisture conditions. In páramo ecosystems, where high soil moisture plays an important role in retarding decomposition and driving high C storage, the loss of water retention after afforestation may be the dominant factor in C loss. These results suggest that soil C buildup and water retention respond rapidly to changes in biota and need to be assessed with regard to implications for C sequestration and watershed management.     

Development of a fluorescent probe for the study of nucleosome assembly and dynamics

To develop a probe for use in real-time dynamic studies of nucleosomes, core histones (from Drosophila) were conjugated to a DNA-intercalating dye, thiazole orange, by a reaction targeting Cys 110 of histone H3. In the absence of DNA, the conjugated histones are only very weakly fluorescent. However, upon reconstitution into nucleosomes by standard salt dialysis procedures, the probe fluoresces strongly, reflecting its ability to intercalate into the nucleosomal DNA. The probe is also sensitive to the nature of the DNA-histone interaction. Nucleosomes reconstituted by stepwise salt dialysis give a fluorescence signal quite different from that of the species formed when DNA and histones are simply mixed in low salt. In addition, changing either the DNA length or the type of sequence (nucleosome positioning sequences versus random DNA of the same size) used in the reconstitution alters the resulting fluorescence yield. The results are all consistent with the conclusion that a more rigid, less flexible nucleosome structure results in less fluorescence than a looser structure, presumably due to structural constraints on dye intercalation. This probe should be well suited to analyzing nucleosome dynamics and to following factor-mediated assembly and remodeling of nucleosomes in real time, particularly at the single-molecule level.     

Molecular characterization of bla(IMP-5), a new integron-borne metallo-beta-lactamase gene from an Acinetobacter baumannii nosocomial isolate in Portugal

Postbloom fruit drop (PFD) of citrus is caused by Colletotrichum acutatum. PFD isolates infect flower petals, induce abscission of small fruit and can cause severe yield loss on most citrus cultivars. Isolates from Key lime anthracnose (KLA) cause that disease on the Mexican lime, but also cause PFD on sweet orange. Both PFD and KLA isolates exhibited resistance to the common selection agents including hygromycin, bialaphos, benomyl and geneticin/G418. A genetic transformation system was developed for C. acutatum to confer resistance to sulfonylurea (chlorimuron ethyl) by expressing an acetolactate synthase gene (sur) cassette from Magnaporthe grisea. The protocol was tested on 11 different KLA and PFD isolates. The transformation frequencies were highly variable among isolates and among experiments (0-17.9 per microg circular DNA using 10(7) protoplasts). Southern blot analysis of transformants indicated that the plasmid vector was randomly integrated in multiple copies into the genome of C. acutatum. Addition of restriction enzymes or use of a vector with homologous sequences did not change the transformation frequencies, but tended to reduce the number integrated. Over 97% of the transformants retained the sulfonylurea resistance phenotype under non-selective conditions. Of 300 transformants tested, three were unable to cause necrotic lesions on detached Key lime leaves. The transformation method opens up opportunities for the genetic manipulation of C. acutatum.     

The pH of the Plasmodium falciparum digestive vacuole: holy grail or dead-end trail?

The maintenance of acidic pH in the digestive vacuole of the malaria parasite is thought to be crucial to the digestion of host cell haemoglobin and the subsequent process of heme detoxification. It may also be important in the mode of action of chloroquine and in the mechanism of resistance to the drug. Obtaining a definitive measurement of digestive vacuole pH has been surprisingly difficult. Some of the techniques for the measurement of pH in acid vesicles are outlined here along with some key aspects that are specific to malaria parasites. The use of acridine orange and dextran-tagged dyes as probes for the measurement of digestive vacuole pH has proved problematic, yet some surprising findings have emerged from work with these compounds.     

Effect of 2,4-D and 4-CPPU on somatic embryogenesis from stigma and style transverse thin cell layers of Citrus

Callus induction, somatic embryogenesis and plant regeneration were obtained in lemon [Citrus limon (L.) Burm. cv `Femminello'] and sweet orange [C. sinensis (L.) Osb. cv `Washington Navel GS'] from cultures of stigma and style transverse thin cell layer explants [(t)TCLs]. Explants were cultured on 16 different media, based on the nutrients and vitamins of Murashige and Tucker medium (MT) supplemented with different combinations of 2,4-dichlorophenoxyacetic acid (2,4-D) and N-(2-chloro-4-pyridyl)-N-phenylurea (4-CPPU). Sucrose (146 mM) was used as the sole carbon source. Somatic embryos arose from callus at the surface of stigma and style (t)TCLs 3–5 months after culture initiation of both sweet orange and lemon. The percentages of embryo formation from style (t)TCLs ranged from 0% (the media containing 2,4-D) to 16.0% (the medium supplemented with 4 M 4-CPPU) for C. limon. Better results were obtained when stigma (t)TCLs from C. limon were used; in fact, percentages ranged from 0% on the media containing 2,4-D, with the only exception for the medium supplemented with 0.4 M 2,4-D, to 24.8% on medium with 4 M 4-CPPU. The embryogenic response of lemon (t)TCLs was usually higher than for sweet orange (t)TCLs. After about 3 months, somatic embryos developed into plantlets at high frequencies ranging from 53% to 75% for sweet orange and lemon style derived embryos, respectively.     

Structural basis of the rind disorder oleocellosis in Washington navel orange (Citrus sinensis L. Osbeck)

Oleocellosis, a physiological rind disorder of citrus fruit, is an unattractive surface blemish caused by phytotoxic effects of released rind oils. The development of oleocellosis in Washington navel orange (Citrus sinensis L. Osbeck) was examined by following a time sequence of surface symptoms and microscopic rind changes. The two natural causes of oleocellosis were simulated: mechanical damage to the fruit and transfer of rind oil between fruit. Mechanical fruit injury resulted in rupture of the epidermis above oil glands. Released surface oil appeared to infiltrate the rind via the ruptured epidermis resulting in rapid degeneration of cortical, but not epidermal, cell contents. Oil application to the rind surface produced a more severe blemish than did mechanical damage. The oil appeared to diffuse through the cuticle causing degeneration of the contents of all cell layers, including the epidermis. Loss of membrane integrity was detected within 30 min, followed by cell content degeneration and cell collapse. The resulting blemish, characterized by rind collapse and darkening, developed substantially within 3 d and was attributed to the cellular damage.     

Plant regeneration of sweet orange (Citrus sinensis) from thin sections of mature stem segments

An efficient system for in vitro plant regeneration from thin transversal stem sections explants (1–2 mm) using mature tissues of sweet orange cv. Pera was developed. Explants were cultured in different media to evaluate the frequency of regeneration and size of buds. A high percentage of explants (54% with 3.1 buds/explant) producing large buds (1–4 mm) was observed when the explants were cultivated for 2 weeks on Murashige and Skoog medium and then transferred to Woody Plant medium (WPM). Both media were supplemented with 1.8 M 6-benzylaminopurine and 0.7 M gibberellic acid. Adventitious buds were regenerated into whole plants by in vitro shoot-tip grafting. Regenerated plants started to flower after 12 months in the greenhouse, confirming their mature nature.